Yes
It is approximately 85 g/100 g Water, you can find a graph at www.unit5.org/christjs/Solutions/Solubility.ppt solubility versus temperature.
Yes
Sodium Acetate Can be fond in 2 forms. Either anhydrous or trihydrate. Oxidation reaction with anhydrous form is easier than trihydrate form. First form has reaction similar to that of Oxidation of Acetic Acid. Trihydrate form is a bit more complex and I'm still loking into it
82.03 g/mol (anhydrous)=136.08 g/mol (trihydrate)=
on basis of solubility in water. ethyl acetate.
The term trihydrate refers to the fact that three molecules of water are associated with each formula unit of sodium acetate. The formula unit for sodium acetate trihydrate is NaC2H3O2‧3H2O.
It is approximately 85 g/100 g Water, you can find a graph at www.unit5.org/christjs/Solutions/Solubility.ppt solubility versus temperature.
Yes
Approx. 0,7 g butyl acetate in 100 mL water, at room temperature.
Pb(CH3COO)2.3H2O
soluble
Sodium Acetate Can be fond in 2 forms. Either anhydrous or trihydrate. Oxidation reaction with anhydrous form is easier than trihydrate form. First form has reaction similar to that of Oxidation of Acetic Acid. Trihydrate form is a bit more complex and I'm still loking into it
Solubility of ethyl acetate (ethyl ethanoate) in water is 8.3 g/100 mL at 20 °C.
82.03 g/mol (anhydrous)=136.08 g/mol (trihydrate)=
on basis of solubility in water. ethyl acetate.
If you're thinking along the lines of artificial heating or heating pads/hot ice; Sodium acetate trihydrate crystals melt are melted at around 58 °C, dissolving in their crystallization water. When they are heated to around 100 °C, and subsequently allowed to cool, the aqueous solution becomes supersaturated. This solution is capable of supercooling to room temperature without forming crystals. By clicking on a metal disc in the heating pad or whatever container this solution is contained in, a nucleation center is formed which causes the solution to crystallize into solid sodium acetate trihydrate again. The bond-forming process of crystallization is exothermic, hence strong heat is emitted (which can be very dangerous if exposed to skin and cause second degree burns). Hope that helps. Make sure to recommend. Cheers :) Joey, MIT undergrad
http://www.unit5.org/christjs/Solutions/Solubility.ppt